EP1024858A1 - Device and method for activating objects - Google Patents

Abstract

The invention relates to a device and a method for activating objects (2), i.e. substances, organic and inorganic materials or living plant, animal or human bodies and parts thereof, taking into account the influence of the Earth's magnetic field. To this end, the Earth's magnetic field is shielded off from the object (2) to be activated during the activation.

Description

 description

Device and method for activating objects

The invention relates to a device for activating objects in the form of substances, organic materials or living plant, animal or human bodies and parts thereof according to the preamble of claim 1 and a method for activating objects in the form of substances, organic materials or living plant Bodies and parts thereof according to claim 23.

Since the beginning of this century there have been considerations as to whether electromagnetic radiation is emitted by organisms and by which the function of cells is influenced. Since the 1970s, F. A. Popp has given the first experimental evidence that cells emit photon radiation of biological importance. It is believed that the frequency range of this radiation ranges from very small values less than 1 Hz to very large values above 10 ^^ Hz. It is assumed that the body has its own energy field of an electromagnetic nature and that this electromagnetic field is superior to the biochemical control and regulation processes. A disease therefore shows itself in a change in the higher level of electromagnetic control. These pathological changes are also known as disturbing vibrations, which influence the body's natural electromagnetic field and can trigger incorrect regulation.

On this basis, a therapy direction has been developed that works with so-called body-own or substance-specific vibrations and by means of the disturbing frequency pattern by means of an improvement or healing is achievable. In these processes, vibration patterns of the human or animal body or of plants or the characteristic electromagnetic fields of other organic and inorganic substances are processed by means of modern electronics using a bioresonance therapy device and applied to the organism for healing purposes. The option is taken to weaken or amplify the signals picked up by the body or substances via receiving antennas and also to invert the signals in order to cancel out incorrect pathological electromagnetic vibrations or correct physiological electromagnetic vibrations in the patient through resonance or cancellation effects to stimulate or reinforce.

Bioresonance therapy is essentially based on the following prerequisites: The body and biochemical processes in the body are controlled electromagnetically, ie there are electro-magnetic vibrations in and around the human body. These are superior to the biochemical processes and control them, so that an oscillation spectrum of the organism is created. In addition to the physiological vibrations, there are also pathological vibrations in every person, which are caused by toxin loads, injuries, infections, unhealed diseases, allergies, etc. Corresponding vibrations are present in fabrics. The body's or substance's own electromagnetic fields can be tapped from the surface and processed in a therapy device. Therapy vibrations are generated in the therapy devices from these vibrations, which are fed to the body. The therapy vibrations cause a therapeutic effect in the patient's body by deleting or reducing the pathological vibrations or stimulating or strengthening the physiological vibrations. The improvement of the biophysical energy situation leads to an effective therapy. This form of therapy has been known for twenty years, whereby the term mora ( ^R ) therapy was first coined and the term bioresonance has recently become established. Furthermore, the techniques of bioresonance therapy are referred to in the relevant literature, for example the publication by F. Morell in holistic medicine, issue 0 / 4-87, page 17 and by W. Ludwig, The Basics of Bioresonance Therapy, from Biore - Sonance and multi-resonance therapy, Haug Verlag 1990, referred. Other publications on bioresonance therapy have been published by the Brügemann Institute in Gauting, for example the publication by H. Brügemann, Bioresonance Therapy - Fundamentals and Practice of Advanced Therapy with Patients' Vibrations and the publication by P. Schumacher, Allergy from a Biophysical Point of View.

Every substance, regardless of whether it is inorganic or organic, emits an electromagnetic oscillation pattern that is in both the low and high frequency range. The physical description for the electromagnetic radiation of substances in the long-wave range can be found using the Rayleigh-Jeans law. The radiation curve of a black body has a maximum at lOμm at a temperature of 300 K, ie in the IR range. According to the radiation laws, radiation can also be found at low frequencies. So z. B. between 0.9 and 1.1 MHz an emission of approx. 8700 photons per cm ^ and second can be expected. These values are modified for a real body compared to the black body. The difference from a hypothetical black body explains the different spectral radiation from different materials. In the case of organic substances, there is another radiation source that is not found in inorganic materials, biophoton radiation. The physicist Dr. Popp has recorded remarkable spectra with photo-multipliers in the UV range, which detect this radiation. According to the physicist Bigu del Blanco, the spectrum of humans is extremely broad. Although they have not yet been measured, it can be assumed that similar spectra are also available for animals and plants. Biophotons that are emitted by living substances should also have the low-frequency modulation mentioned above.

The characteristic radiation emitted by each substance, which is in both the low and high frequency range, can be picked up by an input antenna and processed with an electronic circuit, e.g. B. amplified, inverted or weakened. Using a transmitter antenna, this processed signal can be swung onto a carrier that can store this oscillation pattern or onto a body. The swinging up is the common name for the transmission of a signal. The transmitter substance can be a natural or artificial preparation or an endogenous substance. Swinging up on a body is a therapeutic application.

From DE-OS 31 10 915, DE-OS 30 27 621 and DE-OS 32 44 582 an arrangement is known by means of which the human body can be exposed to a changing or a modulated magnetic field. In the case of the vibration magnetic field therapy device known from DE-OS 41 35 325, an ampoule with a paramagnetic reagent is acted upon by a magnetic field and is thus activated.

The so-called MitoSan system is manufactured by Vitatec GmbH medical-technical products and distributed in which objects to be treated or activated are exposed to a weakly varying magnetic field. In addition, the MitoSan system can also generate vibrations in the area of ultra-weak electromagnetic signals. These ultra-weak signals correspond to those of the cell itself under physiological conditions and within the framework of genetic control. If these ultra-weak signals are missing from the patient, the organism is stimulated by the application of the vibration patterns of MitoSan therapy to rebuild them itself; the pathological cell system can regenerate.

These known radiation devices are used in the natural sciences for the transmission of vibrations from medicinal products, e.g. B. homeopathic remedies and samples from test kits, which are used to test allergies or substance intolerance, used with electromagnetic or magnetic waves on carriers or patients. Since the phenomenon of homeopathy has been seriously investigated, one possible explanation for the mode of action of homeopathic or similar agents is that electromagnetic signals of extremely weak intensity are transmitted to biological organisms. Here, the possibility of water to be able to store electromagnetic information in its cluster structures seems to be one to play an important role.

A disadvantage of the known therapy devices or devices for irradiating and activating objects is that the influence of the temporally and locally changing geomagnetic field is not taken into account.

It is therefore an object of the present invention

Device and a method for activating objects, ie substances, organic and inorganic materials or living plant, animal or human Specify bodies and parts thereof that take into account the influence of the earth's magnetic field.

This object is achieved by the features of claims 1 and 23, respectively.

It was found in the context of the invention that the earth's magnetic field influences the activation of objects. The effect of magnetic fields on objects to be activated can be explained in such a way that the movements of charged particles such as ions, charged molecules, atomic nuclei or electrons are influenced by a magnetic field. With the help of a magnetic field, energy can be transferred to charged particles and their orbital movement can be influenced.

When irradiation - activation - with a suitable frequency, the resonance frequency - on substances that are in a magnetic field, the substances to be activated absorb energy through resonance effects, which is then emitted again by emitting electromagnetic radiation. The radiation emitted in that case is characteristic of the substance for a given static magnetic field. These resonance effects are:

- nuclear magnetic resonance (NMR)

Electron spin resonance (ESR) cyclotron resonance

The physical basics of this resonance effect can be found in relevant physical textbooks, so that there is no need to go into this in detail. In addition, an essay by the inventor in the journal for medical regulatory diagnosis and therapy, issue 3, September 1998, pages 67 to 73, with the Reference entitled "Resonance phenomena and the change in radiation".

In view of the fact that the body is exposed to the earth's magnetic field, the strength of which is on average between 20 T and 60 T, it can therefore be expected that the magnetic field will have an influence on disturbances in the body. The earth's magnetic field interacts with the existing electromagnetic field of terrestrial or extraterrestrial origin and triggers the resonance phenomena explained above. Since disturbances in the body occurred at a certain point in time with a certain magnetic field and a certain electromagnetic field, it can be explained that suitable states have to be set accordingly in order to remedy the stored disturbances.

Because the earth's magnetic field, which is also a weak magnetic field, is shielded from the object to be activated, the influence of the earth's magnetic field is eliminated. The magnetic field is shielded in the area of the object to be activated, i. H. the area in which the object to be activated is located is shielded. The shielding of the earth's magnetic field can be passive, e.g. B. by a material with high permeability (μ-metal, soft iron), or active, d. H. by an oppositely polarized artificially generated magnetic field. The shielding is designed in such a way that in the area in which the object to be activated is located, the earth's magnetic field and also from outside - artificial magnetic fields not generated by the device according to the invention - are shielded.

In this way, a defined magnetic field environment is created in the spatial area of the object to be activated, so that it is possible to generate certain magnetic field states that the desired activating or therapeutic - o -

see effect. The weak magnetic field generated by the device according to the invention can in principle be constant, i. H. be variably adjustable to a fixed value. However, it is preferred if the strength and / or direction of the magnetic field can be changed over time, since a human body also moves in the earth's field and is therefore exposed to different field values and field directions.

The earth's magnetic field is subject to periodic fluctuations that repeat with a period of 13 hours up to a frequency of 22 kHz. The higher the frequency, the smaller the change in field strength. The earth's magnetic field and in particular the changes in the earth's magnetic field can be artificially simulated with the device according to the invention, with the shielding preventing the artificial "earth's magnetic field" from being superimposed on the natural earth's magnetic field. By preferably automatically changing the magnetic field, all relevant magnetic fields can thus be passed through in a defined manner without being superimposed on external magnetic fields, so that a precisely fitting signal is generated in any case. It has been found that the simulation of the change in the natural magnetic field over time with higher or lower field strengths than the natural magnetic field has a particularly favorable effect on the activation of substances and is also therapeutically more effective than the identical simulation of the earth's magnetic field.

If the temporal variation of the artificially generated magnetic field takes place with a frequency that is not too high, for example with a frequency of less than 10 Hz, in practice a slow change of the magnetic field over a period of about 30 seconds can also be advantageous it in view of the much shorter time constants that occur in the processes to be activated Material play a role as a quasi-static magnetic field.

In the simplest case, the object to be activated is shielded from external magnetic fields, such as earth's magnetic field or artificial magnetic fields caused by electrical devices, and exposed to a defined constant or variable magnetic field. The activation then takes place through the interaction of the weak magnetic field with the existing terrestrial and extraterrestial radiation, which is not shielded by the magnetic shielding.

By shielding all external magnetic fields possible to zero and the subsequent controlled variation of the magnetic fields in a certain rhythm or also to a fixed selectable value, it is possible to activate the object to be activated, e.g. B. expose the human body to a magnetic field that works optimally for him in the respective situation and when stimulated by artificial and / or natural broadband spectra and can thus lead to increased physical well-being. This happens . on the one hand by the artificially generated "suitable" magnetic field and on the other hand by the resonance effects in the form of NMR, ESR and cyclotron resonance spectra associated with this magnetic field.

According to an advantageous embodiment of the invention, the activation is additionally carried out by means of thermal, electromagnetic, electrical, optical or magnetic excitation. The activation means here comprises an activation antenna arranged in the area of the object to be activated. In contrast to the existing ambient radiation, this activating agent can be influenced and modulated in a targeted manner. According to an advantageous embodiment of the invention, a vibration pattern is derived from a radiating transmitter substance or the object to be activated by means of a receiving antenna, processed in a signal processing unit and transmitted to a carrier substance via a transmitting antenna.

The solution according to the invention is based on the knowledge that it is possible! is ,, to excite the transmitter substances or substances to be activated thermally, electromagnetically, electrically or magnetically by means of an activation means, whereby the therapy signal picked up by the receiving antenna is stronger than the signal without activation or the signal with the appropriate amplitude or frequency for the respective application is produced. In this way, the signal intensity of a substance whose original radiation has weakened or has been lost can be excited again and used for the purposes described. In the case of transmitter substances which still have their normal radiation intensity, the radiation according to the invention can be intensified. It can be assumed that an essentially reinforcing effect occurs with purely inorganic transmitter substances, since their emission decreases only very slowly over time. In other applications, a "suitable" signal can be provided.

Various activation means are suitable for activating the transmitter substance, ie for supplying suitable energy, in particular in the form of vibrations. According to a first preferred feature, it is proposed that the activation means comprise an activation antenna. Using an activation antenna, electromagnetic vibrations can be applied to the transmitter material or to the object to be activated. jekt be transferred, the frequencies and the polarity are adjustable in the desired manner.

For optimal excitation of low-frequency vibrations, it is preferred if the radiation device comprises both a magnetic activation means, that is to say a device for generating a magnetic field at the location of the transmitter substance or the object to be activated, and also a thermal or electromagnetic activation means. The combination of these measures enables intensive activation, especially at low frequencies. If you also use a delay circuit, the signal can continue to be optimally influenced for the effect to be achieved. In this case, the signals can also be stored.

Another advantageous activating agent can be a light source. All types of lamps and light sources that emit continuously or at intervals, in particular flash lamps, miniaturized lasers and IR diodes, are suitable for this.

Another advantageous activating agent can be a heat source. This can be, for example, a radiant heat source or a heating resistor in contact with the transmitter substance or its container.

In some applications it may be advantageous to use two or more, identical or different activating agents (e.g. activating antenna, light source and heat source) in combination.

In order to achieve an optimal activation, according to a preferred feature it can be provided that the control unit or the activation means for sending a multitude of number of frequencies is formed by means of the activation means. It has been found within the scope of the invention that broadband excitations are particularly effective. It is therefore most advantageous if the largest possible frequency spectrum simultaneously acts on the transmitter substance for activation. The action can be constant or varying over time. However, it is also advantageous if a changing frequency, for example by means of a frequency generator, is used to achieve an activation comprising many frequencies. The frequencies can be between a few Hertz and 30 GHz.

According to a further advantageous feature, it can be provided that the activation means can be activated periodically or aperiodically in a pulsed manner. It has been found that activation, which does not take place permanently, but rather has rest periods for the transmitter substrate between the activation coils, is particularly advantageous in many areas of application. Furthermore, it can be advantageous, in particular in the case of electromagnetic activation by means of a transmitting antenna, if there are pauses in activation in which the physiological electromagnetic signal can be picked up by the transmitter material by means of the receiving antenna without a disruptive signal from the activating means, i.e. the activation antenna is superimposed.

A preferred development can consist in that the activating agent in one of the two atmospheric

Window is emitted and / or pulsed at a frequency in one of the two atmospheric windows. This is explained for the following reasons.

Life on earth has developed in a large spectrum of electromagnetic signals of various intensities. The decisive factor here is the property of the atmosphere, certain electromagnetic frequencies better to let through than to weaken others and to almost zero. There are two so-called "atmospheric windows". The first is the optical window and covers the visible range of the electromagnetic spectrum. The organism has used this window to develop the ability to see. The adjacent areas are also important for life, UV light for example for the synthesis of vitamin D. and the IR area for heat. The second atmospheric window covers the electromagnetic frequency range from 3 MHz to 30 GHz.

In the context of the invention it has been confirmed that it is advantageous for the activation of transmitter substances or objects if the broadband, naturally present spectra of a few Hertz to several GHz are used, and in particular if the frequencies are in the atmospheric windows. In this way, an advantageous agreement or approximation with the naturally available spectra is achieved.

According to a further preferred feature, it is proposed that the activation means can be activated in a pulsed manner with a frequency between 7 and 9 Hz, preferably around 7.8 Hz. This aspect of the invention is based on the following knowledge. Man and his environment are in a kind of cavity resonator that influences and partially controls the organism. The cavity resonator is formed on one side by the earth's surface and on the other side by the Heaviside layer of the atmosphere. Thunderstorm activity and other atmospheric phenomena cause this cavity resonator to vibrate, the fundamental wave of the vibrations being approximately 7.8 Hz and the waves being called "Schumann waves". It has been found that this frequency of 7.8 Hz coincides with the hippocampal frequency, which is common to all Mammals are largely the same. Humans need the Schumann resonances as biotropic stimuli, and a deficiency can manifest itself in various complaints. The Schumann waves, which can have varying frequencies, are pulse-shaped events that are composed of fundamental and harmonic waves. The nervous system responds to both the fundamental and the harmonic waves. This also applies to the objects to be activated.

For this reason it is understandable why a broadband spectrum from a few Hertz up to the GHz range with a repetition frequency of approx. 7.8 Hz corresponding to the Schumann waves is advantageous.

An additional advantageous feature is that the signal processing stage comprises a delay circuit, by means of which output signals can be delayed in time compared to input signals. This feature is based on the surprising finding that substances, organs and other body systems can not only be treated in certain frequency ranges, but that the temporal relationship between the input signal picked up by the transmitter substance and the output signal acting on the body or the carrier substance is of decisive importance comes to.

Advantageously, the processing unit can also be used to change the phase position of the signals picked up by the receiving antenna to the signals emitted by the transmitting antenna, as is known from German utility model 29709094.1. In this respect, reference is made here in full to this utility model.

Further details, features and advantages of the invention emerge from the following description of preferred embodiments using the drawing. It shows: , _r

- lb -

Fig. 1 is a schematic representation of a first embodiment of the invention;

Fig. 2 is a schematic representation of a second embodiment of the invention;

Fig. 3 is a schematic representation of a third embodiment of the invention;

4 shows a schematic illustration of a fourth embodiment of the invention by means of which oscillation patterns can be transferred from a transmitter substance or an object to be activated to a carrier substance;

5 is a schematic illustration of a fifth embodiment of the invention, which is a modification of the fourth embodiment.

Fig. 1 shows a schematic representation of a first embodiment of the invention. An object 2 to be activated is arranged inside a magnetic field coil 4. The magnetic field coil 4 is in turn arranged within a passive magnetic shield 6. The magnetic field coil 4 is controlled by means of a control unit 8. The magnetic field coil 4 serves both to generate a weak magnetic field as an activation means and to generate a correspondingly polarized shielding magnetic field, by means of which the earth's magnetic field and other external magnetic fields are compensated. In order to implement this active magnetic shielding, magnetic field sensors 10 are arranged in the interior of the magnetic field coil 4 in the area of the object to be activated. These magnetic field sensors 10 deliver a manipulated variable for the magnetic field to be controlled inside the magnetic field coil 4. - 16 -

Figures 2 and 3 show a second and third embodiment of the invention, which is suitable for the treatment of the human body or parts thereof. A tubular housing 12 contains the magnetic field coil, shielding and magnetic field sensors, which are not shown, and which are controlled by the control unit 8. In the second embodiment according to FIG. 2, the housing 12 is large enough to accommodate a human body. In the third embodiment according to FIG. 3, the housing 12 is smaller and only serves to hold a foot, a hand or the like.

FIGS. 4 and 5 show a fourth and fifth embodiment of the invention by means of which oscillation patterns can be transmitted from a transmitter substance 2 or an object 2 to be activated to a carrier substance 14 in a sectional illustration.

In the embodiment according to FIG. 4, the object to be activated or the transmitter material 2 and the carrier material 14 are each in a container 16 which is as broad as possible permeable to electromagnetic radiation and, for example, consists of quartz glass. An antenna 18 in the form of a spiral antenna is provided in the bottom region of the container 16 under the transmitter material 2. The antenna 18 serves both as an activation antenna for activating the transmitter substance 2 and as a reception antenna for receiving the signals originating from the transmitter substance 2. In the bottom area of the container 16 under the carrier material 14, a transmitter fir 20 is arranged, which is also designed as a spiral antenna.

The transmitter material 2 and the carrier material 14 are each inserted into cup-shaped receptacles 22 and 24, the walls 26 of which taper parabolically upwards and one

Form reflector to further reflections of the broadband - -

To cause signals in the direction of the transmitter or carrier. Alternatively, the wall of the cup can serve as an antenna. The curvature of the walls 24 can of course also be designed in a different way than parabolic. In the context of the invention, it has been found that it is advantageous if the antennas 18, 20 comprise a curved reflector 24, by means of which the electromagnetic signals emitted by the activation antenna 18 or transmission antenna 20 are directed onto the transmitter substance 2 or carrier substance 14 or by means of of which the electromagnetic signals emitted by the transmitter material 2 are collected for the receiving antenna 20. In this way the signal transmission is improved. The reflector 24 can be made of aluminum, steel or copper, for example.

The receptacle 22 is encompassed by a first magnetic field coil 28, which in turn is surrounded by a magnetic shielding 30. The magnetic field coil 28 serves to generate a defined magnetic field, while the magnetic shield 30 serves to compensate or shield external magnetic fields.

5 differs from the embodiment according to FIG. 4 only in that the activation and reception antenna 18 and the transmission antenna 20 are not arranged in the bottom region of the container 16, but on the respective reflectors 26. In addition, the receptacle 24 of the carrier material 2 is surrounded in the same way as the receptacle 22 of the transmitter material 2 by a second magnetic field coil 29 and a passive magnetic shield 30. In this way, it is also possible for radiation to swing onto the substrate under defined magnetic field conditions, and an overlay with external magnetic fields is avoided. A weak magnetic field between 0 and 1 mT, preferably between 0 and 130 μT, can be generated in the area of the transmitter material 5 by means of the magnetic coils 28 and 29.

The transmitter substance 5 can also be a living organism, human, animal or vegetable, or parts thereof.

Reference list

Object or transmitter material to be activated Magnetic field coil Passive magnetic shielding Control unit Magnetic field sensors Housing Carrier material Activation and receiving antenna Transmitting antenna receptacle Transmitter material receptacle Carrier walls of the receptacles 22, 24 First magnetic field coil Second magnetic field coil Magnetic shielding Control and processing unit

Claims

Expectations

1. Device for activating objects (2) in the form of substances, organic materials or living plant, animal or human bodies and parts thereof, with a device (4, 8; 28, 32) for generating weak fixed or variable magnetic fields in the area the object to be activated (2), and a device (6 28; 4, 8; 28, 32) for passive and / or active magnetic shielding of external magnetic fields, in particular for shielding the natural earth's magnetic field.

2. Device according to claim 1, characterized in that the device (4, 8; 28, 32) for generating weak magnetic fields comprises at least one control unit (8; 32) and a magnetic field coil (4; 28), in the interior of which to be activated Object is arranged, the magnetic field coil (4; 28) also being used for active magnetic shielding of the component of the natural earth's magnetic field, which runs parallel to the magnetic field direction inside the magnetic field coil.

3. Apparatus according to claim 2, characterized in that the at least one magnetic field coil (4; 28) is arranged in a container (12; 16) which is open on one side.

4. Device according to one of the preceding claims, characterized by a arranged in the region of the object to be activated (2) thermal, _ 2 1 - P / E

electromagnetic, electrical, optical or magnetic activation means (4, 8; 18, 28 32).

5. The device according to claim 4, characterized by a device (24) for receiving a

Carrier material (14), a transmitting antenna (20) arranged in the region of the carrier material (14), a receiving antenna (18) arranged in the region of the object to be activated (2) for receiving signals emitted by the object (2) to be activated or originate from the activated object (2), and a processing unit (32) connected to the receiving antenna (18) and the transmitting antenna (20) for further processing of the signals received by the receiving antenna (18) and for transmitting the further processed signals to the transmitting antenna (20 ).

6. The device according to claim 5, characterized in that the receptacle (24) of the carrier material (14) comprises a passive or active magnetic shield (28, 30, 32).

7. Device according to one of the preceding claims, characterized in that the passive magnetic shield (6; 30) comprises a layer of a material with high permeability, in particular μ-material or soft iron.

Device according to one of claims 4 to 7, characterized in that the activation means (18, 28, 32) comprises an activation antenna (18). - 22 -

9. The device according to claim 8, characterized in that the receiving antenna and the activation antenna are combined in one antenna (18).

10. Device according to one of claims 5 to 9, characterized in that the activation antenna (18), the receiving antenna (18) or the transmitting antenna (20) is a spiral antenna.

11. The device according to one of claims 5 to 10, characterized in that the activation antenna (18), the receiving antenna (18) or the transmitting antenna (20) comprises a curved reflector (26), by means of which the activation antenna (18) or electromagnetic signals emitted by the transmitting antenna (20) are directed at the object (2) to be activated or at the carrier (14) or by means of which the electromagnetic signals emitted by the object (2) to be activated are collected for the receiving antenna (18).

12. Device according to one of claims 4 to 11, characterized in that the activating means comprises a light source.

13. Device according to one of claims 4 to 12, characterized in that the activating agent comprises a heat source.

14. Device according to one of claims 2 to 13, characterized in that the control unit (8; 32) or the activation means is designed to transmit a broadband frequency spectrum

15. The apparatus according to claim 14, characterized in that the control unit (8; 32) has a diode for forming a transmitter signal in a broadband, high frequency spectrum.

16. The device according to one of claims 4 to 15, characterized in that the control and

Processing unit (8; 32) a means for

Suppressing or blanking the activation signals.

17. Device according to one of claims 4 to 16, characterized in that the activation means (4, 8; 18, 28 32) can be activated periodically or aperiodically in a pulsed manner.

18. Device according to one of claims 4 to 16, characterized in that the activating means (4, 8; 18, 28 32) is emitted in one of the atmospheric windows and / or is pulsed at a frequency in one of the atmospheric windows.

19. Device according to one of claims 4 to 16, characterized in that the activation means (4, 8; 18, 28 32) is pulsed at a frequency of 7 to 8 Hz, preferably around 7.8 Hz.

20. Device according to one of claims 5 to 19, characterized by a device (29, 32) for generating weak fixed or variable magnetic fields in the region of the carrier material (14), and

21. Device according to one of the preceding claims, characterized in that the devices (4, 8;

28, 29, 32) for generating a weak magnetic field generate a magnetic field in the range between 0 and 1 mT and in particular between 0 and 130 μT.

22. Device according to one of the preceding claims, characterized in that the magnetic field through the device (4, 8; 28, 32) for generating a weak magnetic field in time and / or direction can be changed.

23. Method for activating objects (2) in the form of substances, organic materials or living plant bodies and parts thereof, in particular with a device according to one of the preceding

Claims with the procedural steps:

Shielding external magnetic fields, in particular the earth's magnetic field, from the substances to be activated (2); and creating a weak fixed or varying

Magnetic field in the area of the substance to be activated

(2).

24. The method according to claim 23, characterized by the step:

Activating the object (2) to be activated by means of a thermal, electromagnetic, electrical, optical or magnetic activation means (4, 8; 18, 28 32).

25. The method according to claim 24, characterized by the method steps:

Recording signals originating from the activated object (2); Further processing of these signals;

Transfer of the processed signals to a carrier (14).

26. The method according to claim 25, characterized by the step: Shielding the carrier material (14) from external magnetic fields, in particular from the earth's magnetic field.

27. The method according to claim 25 or 26, characterized by the method step:

Generating a weak fixed or varying magnetic field in the area of the carrier material (14).